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ןב תטיסרבינוא - בגנב ןוירוג
... Example: when a static magnetic field Bz is applied, the solution of this equation shows that the Bloch vector precesses about the z axis at the Larmor frequency, given by ω L = γB z , where γ is the gyromagnetic ratio of the atom. For simplicity, the ...
... Example: when a static magnetic field Bz is applied, the solution of this equation shows that the Bloch vector precesses about the z axis at the Larmor frequency, given by ω L = γB z , where γ is the gyromagnetic ratio of the atom. For simplicity, the ...
Triple resonance for a three-level system of a chiral molecule
... compatible with conventional theory of molecular rotation (i.e. the rotation of a rigid body). The Stark effect for the molecular rotation is expressed by products of the components of the permanent dipole moment and the direction cosines between the dipole moment components and the space-fixed axis a ...
... compatible with conventional theory of molecular rotation (i.e. the rotation of a rigid body). The Stark effect for the molecular rotation is expressed by products of the components of the permanent dipole moment and the direction cosines between the dipole moment components and the space-fixed axis a ...
Steady State Entanglement in Quantum Dot Networks
... the state of the qubits.[3] To initialize the qubit state means to prepare the system in a known state from which we can perform calculations.[2] There are five requirements for the physical implementation of quantum computers described by DiVincenzo, and the last part of this section is based on hi ...
... the state of the qubits.[3] To initialize the qubit state means to prepare the system in a known state from which we can perform calculations.[2] There are five requirements for the physical implementation of quantum computers described by DiVincenzo, and the last part of this section is based on hi ...
An Introduction to
... not actually require one to know or even be able to have these states in hand. Let’s pretend that we know the quantum states that pertain to N molecules in a container of volume V as shown in Fig. 7.2, and let’s label these states by an index J. That is J=1 labels the lowest-energy state of N molecu ...
... not actually require one to know or even be able to have these states in hand. Let’s pretend that we know the quantum states that pertain to N molecules in a container of volume V as shown in Fig. 7.2, and let’s label these states by an index J. That is J=1 labels the lowest-energy state of N molecu ...
Density functional theory of solvation in a polar solvent
... of the present paper. The ‘‘classical’’ density functional theory has many points in common with the DFT of electrons in electronic structure problems. It has been used extensively for the description of atomic liquids at interfaces 关26兴, and more recently of molecular liquids 关27–31兴. The essence o ...
... of the present paper. The ‘‘classical’’ density functional theory has many points in common with the DFT of electrons in electronic structure problems. It has been used extensively for the description of atomic liquids at interfaces 关26兴, and more recently of molecular liquids 关27–31兴. The essence o ...
Chapter 7. Statistical Mechanics
... not actually require one to know or even be able to have these states in hand. Let’s pretend that we know the quantum states that pertain to N molecules in a container of volume V as shown in Fig. 7.2, and let’s label these states by an index J. That is J=1 labels the lowest-energy state of N molecu ...
... not actually require one to know or even be able to have these states in hand. Let’s pretend that we know the quantum states that pertain to N molecules in a container of volume V as shown in Fig. 7.2, and let’s label these states by an index J. That is J=1 labels the lowest-energy state of N molecu ...
Theoretical studies on As and Sb sulfide molecules
... (As4S3) and realgar and pararealgar (As4S4) occur as crystalline solids containing As4S3 and As4S4 molecules, respectively. Crystalline As2S3 (orpiment) has a layered structure composed of rings of AsS3 triangles, rather than one composed of discrete As4S6 molecules. When orpiment dissolves in conce ...
... (As4S3) and realgar and pararealgar (As4S4) occur as crystalline solids containing As4S3 and As4S4 molecules, respectively. Crystalline As2S3 (orpiment) has a layered structure composed of rings of AsS3 triangles, rather than one composed of discrete As4S6 molecules. When orpiment dissolves in conce ...
Zero-energy states in supersymmetric matrix models
... with many more examples illustrating the full variety of applications within mathematics and mathematical physics, can be found in [LS09]. ...
... with many more examples illustrating the full variety of applications within mathematics and mathematical physics, can be found in [LS09]. ...
Many Body Quantum Mechanics
... (Hint: Use Jensen’s inequality and the fact that t 7→ t log t is strictly convex. The problem is easier if one assumes that exp(−H/T ) is trace class, otherwise some version of the spectral Theorem is needed4 . ) ...
... (Hint: Use Jensen’s inequality and the fact that t 7→ t log t is strictly convex. The problem is easier if one assumes that exp(−H/T ) is trace class, otherwise some version of the spectral Theorem is needed4 . ) ...
Normal typicality and von Neumann`s quantum ergodic theorem
... Neumann motivated the decomposition (1.12) by beginning with a family of operators corresponding to coarse-grained macroscopic observables and arguing that by ‘rounding’ the operators, the family can be converted to a family of operators M1 , . . . , Mk that commute with each other, have pure point ...
... Neumann motivated the decomposition (1.12) by beginning with a family of operators corresponding to coarse-grained macroscopic observables and arguing that by ‘rounding’ the operators, the family can be converted to a family of operators M1 , . . . , Mk that commute with each other, have pure point ...
The quantum mechanical tipping pencil--
... This is nothing like the observed behavior of pencils; a real pencil falls over in short order. So, why does a pencil fall over? It falls over for the same reason that any similarlyshaped, macroscopic object would fall over. The well that constrains the center of mass of a pencil-shaped object is ju ...
... This is nothing like the observed behavior of pencils; a real pencil falls over in short order. So, why does a pencil fall over? It falls over for the same reason that any similarlyshaped, macroscopic object would fall over. The well that constrains the center of mass of a pencil-shaped object is ju ...